非穿透柔性体的动力学仿真

Proceedings of the 19th annual conference on Computer graphics and interactive techniques Pub Date : 1992-07-01 DOI:10.1145/133994.134084

D. Baraff, A. Witkin

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引用次数: 263

摘要

提出了非侵彻约束下柔性体的动力学仿真模型。柔性体是根据静止形状的整体变形来描述的。这些物体的动力学行为与理想连续体的行为最接近，并包含了早期拉格朗日动力学模型的结果。柔体模型的动力学推导使以往的柔体仿真工作与非穿透性刚体仿真工作统一起来。在多点接触的物体系统的非侵彻约束由解析计算的接触力来维持。描述了一阶和二阶多项式可变形体的实现。目前，二阶或更高阶变形的模拟涉及用于碰撞检测的多面体边界逼近。

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Dynamic simulation of non-penetrating flexible bodies

A model for the dynamic simulation of flexible bodies subject to non-penetration constraints is presented. Flexible bodies are described in terms of global deformations of a rest shape. The dynamical behavior of these bodies that most closely matches the behavior of ideal continuum bodies is derived, and subsumes the results of earl ier Lagrangian dynamics-based models. The dynamics derived for the flexible-body model allows the unification of previous work on flexible body simulation and previous work on non-penetrating rigid body simulation. The non-penetration constraints for a system of bodies that contact at multiple points are maintained by analytically calculated contact forces. An implementation for first- and second-order polynomially deformable bodies is described. The simulation of second-order or higher deformations currently involves a polyhedral boundary approximation for collision detection purposes,

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Proceedings of the 19th annual conference on Computer graphics and interactive techniques

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